New Funding Opportunities to Support Safety of Navigation: EGNOS and Galileo

New Funding Opportunities to Support Safety of Navigation: EGNOS and Galileo e-navigation Underway 31 January-2 February 2017

GSA 2016 The European GNSS Agency (GSA) today: Staff: about 145 Nationalities: 21 Headquarters: Prague (since September 2012) OtherLocations: St Germain en Laye, Toulouse, Swanwick, and Torrejon

Galileo is being implemented GALILEO: European GNSS that will provide initial services in 2016 (OS and SAR), and will contribute to positioning, navigation and timing applications. Recognised byimo as partof WWRNS (2016) Global high performance services. Run by civil authorities. Dual frequencies as standard. Interoperable with other GNSS. In-Orbit Validation 4 operational satellites and ground segment 2013 Initial services declaration for OS and SAR, Full Operational Capability Full services, 24 satellites 2016 2020 Galileo System Testbed v1 Validation of critical algorithms 2003 GIOVE A/B 2 test satellites 2005/2008 16 satellites for initial services 4

EGNOS services are operational European Geostationary Navigation Overlay Service Uses geostationary satellites and a network of ground stations to receive, analyse and augment GPS signals (in the future also Galileo). Makes existing GNSS signals suitable for safety critical applications. Increases the accuracy of existing satellite positioning signals while providing a crucial integrity message', informing users in the event of problems. EGNOS Open Service (OS) Service Declaration: 1 st October 2009 Already extensively used in road, agriculture, maritime, and mapping segments EGNOS Data Access Service (EDAS) http://www.essp-sas.eu/service_definition_documents EDAS Service provided since 2010 Service Declaration: 26th July 2012 Commercial/professional multimodal applications A new safety service for maritime is under definition compliant with IMO res. 1046 SBAS Shipborne Receivers A new sub-group in RTCM SC-104 for the preparation of Guidelines for implementation and definition of tests specifications 2009 2012 2020

MAIN OBJECTIVES AND ACTIVITIES E-NAVIGATION UNDERWAY 31 JANUARY- 2 FEBRUARY 2017

EGNOS in Maritime and IWW Where we are: SBAS/EGNOS usedin maritimeand IWW navigationwithouttheuse of theintegrityinformationprovided. C.a90% of manufacturers(solas and non-solas) offer a SBAS-enabledreceiver. Where we want to be: EGNOS adopted by maritime and IWW users for safety-related applications, with main focus in General Navigation. By 2020: EGNOS complementing DGNSS infrastructure providing integrity information(at system level) for inland and coastal waters. How to get there: Roadmap definition and implementation which includes: -Definition of a new maritimeand IWW safety serviceforsis Service provision aspects Service Definition RTCM Guidelines/Standard for SBAS shipborne receivers - EGNOS transmission via existing shore infrastructure IALA Guidelinesforthetransmission of EGNOS corrections via IALA beacons and AIS Stations surveillance

High level roadmap for EGNOS in maritime and IWW EGNOS V2

IALA GUIDELINES AND PILOT PROJECT FOR THE TRANSMISSION OF EGNOS CORRECTIONS VIA IALA BEACONS AND AIS STATIONS E-NAVIGATION UNDERWAY 31 JANUARY- 2 FEBRUARY 2017

Roadmap for adoption of EGNOS v2: IALA Guidelines AIS/VDES and IALA beacons IALA Guideline for the use of SBAS under preparation. Work already started in IALA enav17 meeting in WG5-PNT. Pilot Project/Test Campaigns. Indicative duration of the project foreseen: c.a. 1.5 years

Roadmap for adoption of EGNOS v2: Status on IALA guidelines GSA, ESSP and ESA started the work at IALA for the preparation of IALA guidelines on the use of EGNOS, where several input papers were submitted The last input papers focused on an assessment of the best configurations for the transmission of EGNOS corrections over IALA beacons and AIS Stations. Next paper will focus on CBA (March 2017).

Roadmap for adoption of EGNOS v2: Status on Pilot Project Following the Call of interest launched on the use of EGNOS via another means of transmissions different from GEOs (i.e. IALA beacons, AIS and VDES), GSA received the confirmation of 14 countries interested in participating in a pilot. GSA is analysing how to support testing activities and has the intention to launch a pilot projectin Q1 2017.

Expressions of interest in the pilot project of EGNOS over AIS/VDES and IALA beacons Countries that confirmed their interest in the Call Norway Finland Ireland United Kingdom Germany Poland Latvia Hungary France Italy Croatia Romania Portugal Spain

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Applications in Satellite Navigation Galileo 2017 Call is OPEN! Deadline: 01 March 2017 http://ec.europa.eu/research/participants/portal/desktop/en 15

Applications in Satellite Navigation-Galileo-2017 Type of Action IA IA IA CSA Topic Budget (EUR mln) EGNSS Transport Applications 14.50 EGNSS Mass Market Applications 9.00 EGNSS Professional Applications 8.00 EGNSS Awareness raising and capacity building Total budget: 33.00 Funding rate 70% (except for non-profit legal entities, where a rate of 100% applies) 1.50 100% Deadline: 01 March 2017 Indirect costs 25% of the total eligible costs excluding: Subcontracting Costs of resources made available by 3 rd parties Financial support to 3 rd parties Innovation Actions (IA): activities aimed at producing plans and arrangements or designs for new, altered or improved products, processes or services. Coordination & Support Actions (CSA): consisting of accompanying measures such as standardisation, dissemination, awareness-raising and communication, networking, policy dialogues and studies.

Compulsory Preliminary Business Plan GALILEO-1,2,3 What for: Demonstrate the commercial potential of the product and/or service and describe how this potential will be realised. Why we ask: It is an input to evaluate the Impact criteria. How to do: Template available in the participant portal. Define the proposed offering: the product and/or service and target market sector. Review the market sector: structure, size, drivers, market and technology trends. Assess the competition: main players, their current offerings and market share. Describe the innovation of the proposed offering in the context of the competition and the sector s needs Summarise potential business model(s) together with possible entry price(s) and costs Assess the key risks to market entry and possible options for risk mitigation. Outline, graphically, the roll-out of the offering: timescale, sales growth and market share.

Successful proposal- some hints Be focused and concrete: Build on fairly mature application or business concepts and fill the gap Think to bring the products / services on the market at the end of the project Build on market understanding and business expertise: Ideally, coordinator with good expertise in the specific market Demonstrable capability to commercialise the products and services developed Demonstrate a clear motivation to commercialise the products and services: Market entry plan (marketing strategy & business plan) Previous achievements in the specific market Focus on practical impact: Maximise the use of the available signals Prefer trialsand large scale demonstration, involving final users in their real life procedures Produce practical tools useful for the GNSS developer community Select applications where EGNOS and Galileo differentiators are key for the product/service success

Galileo-1-2017 EGNSS Transport Applications Maritime and IWW are ready to benefit from EGNSS Examples of emerging EGNSS applications in maritime and inland waterways (including the Arctic): vessels navigation, traffic management and surveillance, search and rescue, port operations, fisheries monitoring. Proposals should in particular build on the use of current and future EGNOS dedicated services for maritime and IWW, and the Search and Rescue service of Galileo, other Galileo differentiating features and services, such as authentication, and high precision.

Examples of H2020 Galileo 1 st call projects spyglass- Galileo-based passive radar system for maritime surveillance The recurrence of illegal activities at sea such as clandestine immigration, smuggling and trafficking, have made maritime surveillance a priority. A passive bistatic radar (PBR) based on Galileo transmissions for maritime surveillance is proposed A ground based receiver is considered for coastal monitoring and also placed on mobile platforms to assure open sea surveillance The primary task of this system is to detect and localize ships. This feature potentially enables surveillance both in coastal areas and the open sea

Questions time Thank you! Manuel.LopezMartinez@gsa.europa.eu